SYSTEM FOR PRODUCING INTEGRAL OPENINGS FOR BIAXIALLY ORIENTED PLASTIC PIPES

Abstract

 The system is provided for the integrated manufacturing of sockets in oriented pipes, with the possibility of regulating and distributing at will the thicknesses of the socket and making it possible to reinforce the traditionally weaker zones, without increasing the manufacturing process time. It basically comprises a support body (1), a slide block (2) sliding axially on the inside of the body (1) with its inner end (4) conical and equipped with means of heating (6), further comprising a slide rod (8) for the pushing of the corresponding blank (11), this rod having an axial and central orifice (9) for the introduction of expansion and cooling fluid, whilst the slide block (2) has orifices (7) for the intake of a lubricating fluid.

Description

OBJECT OF THE INVENTION

[0001] The present invention relates to a system for the integral manufacturing of sockets in oriented pipes, with the possibility of regulating and distributing the thicknesses at will of the socket, making it possible to reinforce the traditionally weakest areas, without increasing the times of the manufacturing process and with optimum energy efficiency.

[0002] The object of the invention is to form the sockets with housing for gasket seals in a pipe of molecularly oriented plastic material, integrated within the actual production of discontinuous systems.

[0003] The invention is included within the field of manufacturing processes of molecularly oriented profiles, in particular within discontinuous systems.

BACKGROUND OF THE INTENTION

[0004] Molecular orientation is a process whereby, applying a mechanical reformation to a previously extruded pipe or blank, in suitable temperature, pressure, deformation speed and deformation radius conditions principally, a substantial modification of its mechanical properties is produced, principally the sigma of the material, impact resistance, creep improvement, resistance to crack propagation, Young's module, etc.

[0005] With said molecular orientation process, an ultraresistant pipe is produced, with less raw material and with identical or superior feature, thanks to the better resistance of the material.

[0006] There are various methods or systems for the manufacturing of tubular profile, which can be grouped in two large categories: Continuous or line systems and discontinuous systems.

[0007] Principally, discontinuous systems are based on producing the molecular orientation "element by element", which is achieved by an expansion of the blank within a mould which provides the definitive shape of the tubular profile.

[0008] Line processes are radically different and the orientation occurs continuously and simultaneously at the actual extrusion, there bering no interruption in the process, nor intermediate stock, etc.

[0009] Oriented pipes should be joined together to form the conduction line and can do so in two ways: by sleeves, which are independent interconnection parts which are made on tubes with constant, circular section, or by the formation of a socket in each pipe which, makes it possible to insert one end with a pipe within another, each pipe having its two different ends, one smooth and another with the form of socket, and thus it constitutes the line, so that in this socket there is sufficient space to house a gasket seal of flexible material, which ensures a hermetic closure of the network.

[0010] The continuous or line processes, due to their nature, require that the socket process is a process separate from that of the orientation, for which purpose special machines are required which in a later phase than that of the orientation make the socket.

[0011] Discontinuous processes permit that the socket can be performed integrally, i.e, it is formed at the same time as the pipe is formed, or made similarly to the aforementioned, as a process external to that of the pipe orientation.

[0012] Numerous patent documents can be cited for the performance of non-integral sockets, as an extra process, the following being representative:The patent of invention WO200200926, which develops a heating system of the oriented pipe by water, limiting the heating zone with two caps so that once heated and under pressure the pipe is formed against a stamp which provides the shape. Subsequently, the blank is cooled and the water is extracted. The system described in this patent of invention permits good temperature regulation, but it is very slow and lacks a thickness control.

[0013] Likewise, patent EP0930148 can be cited wherein in the heating a machine is established which heats the zone to form the pipe, at a temperature similar to that of the orientation. Subsequently, a sharp expansion element is inserted, which causes that the heated material in plastic state forms against the silhouette of this expansion element, to be then cooled under the temperature of the plastic-solid transition. Once cooled, the parts forming the rubber seal are retracted, until the expansion element has a constant sector, and this element exits the interior of the already formed pipe.

[0014] Within the systems for the making of integrated seals, we can cite patents US4340344, WO9856567 and WO AU9000265. In all cases, the system consists of, at one end of the mould, a cavity is made where on expanding the pipe, a part of the pipe expands on this section, giving rise to the socket, it subsequently being cooled by contact of the pipe metal on the mould.

[0015] Due to the fact that it starts from a blank of constant section, when the socket is produced, in the zones where the expansion is greater, since the final diameter attained is greater, a thinning of the pipe wall formed logically occurs, since the same quantity of material should be distributed over a greater surface. This part coincides with the upper part of the housing of the seal, since it is precisely the part that should bear more axial loads, and is more sensitive to on site impacts or accidents. In short, the part which should be the strongest, due to natural motives of the process is, in terms of thickness, the weakest. In other words, the upper part of the blank, by its upper diameter, is thinned after the production of the socket, the same as the profile in general, due to its greater diameter with respect to the constant section of the pipe.

[0016] This phenomenon, common to all systems, constitutes an authentic problem, since it is not only the weak point of the pipe, but due to the fact that the regulation requires minimum thicknesses at any point of the pipe. This thinning makes it sometimes necessary to have to thicken the whole pipe, with the extra use of non-productive raw material, only to comply with said standard in said point of the socket.

[0017] The machines that form the socket independently try to smooth this effect as far as possible, but in no case do they resolve the problem definitively.

[0018] Furthermore, said machines are very expensive and costly, the operation being very expensive in terms of the investments necessary for their execution, and the processing times should also be taken into consideration which are slow, a bottleneck possibly occurring in the operations,

DESCRIPTION OF THE INVENTION

[0019] The present invention proposes a simple system which resolves the aforementioned problem, being based on means which, coupled to one of the closure of the mould or head permit the integral production of the socket, providing the important novelty of being able to distribute thicknesses at will within the socket profile, even achieving that the traditionally thinnest part of that profile, due to the nature of the process, comes to be, if desired, thicker and reinforced.

[0020] In accordance with the system of the invention thickness regulation is achieved within the integral socket process, including the following means:

[0021] A central support body, which is provided to join to the body of the pipe orientation mould.

[0022] A coaxial sliding part or slide block with conical form, which slides axially, being primarily advanced when forming the socket to progressively remove backwards

[0023] Means of heating incorporated in said sliding part or slide block, for the heating thereof, it being possible that said means are electric means of heating, or based on the circulation of a hot fluid or appropriate system, whose purpose is to maintain the slide block at the orientation temperature.

[0024] Small orifices in said slide block or sliding part to permit the intake of lubricant and facilitate the sliding of the plastic on the slide block, so that said heating means and said orifices determine auxiliary means which permit the conditioning of the parts of the system unit for its optimum behaviour.

[0025] Mechanical grippers which fix the plastic pipe so that it does not move during the orientation or expansion.

[0026] A slide rod which pushes the blank forward, so that this rod is initially behind and when the orientation process starts, it moves axially in opposite direction to the slide block. Said rod is equipped with an axial and central orifice which permits the passage, via intake or outlet, of fluids both for the expansion process and for the cooling process, so that it is possible to project cooling fluid through said orifice of the rod, even with interior pressure.

[0027] Said moving elements, both rod and slide block, as well as grips, are moved by actuators of any type of axial shape, it being possible that they are cylinders, threaded systems, etc.

DESCRIPTION OF THE DRAWINGS

[0028] To complete the description being made and with the object of helping towards a better understanding of the characteristics of the invention, in accordance with a preferred example of practical embodiment thereof, a single page of drawings is attached as an integral part of said description wherein, with an illustrative and non-limitative character, a longitudinal sectional view of the elements and parts comprising the system of the invention has been represented.

PREFERRED EMBODIMENT OF THE INVENTION

[0029] In said figure, it can be verified how the system comprises, in first place, a support body (1) designed to be coupled to the head of the corresponding mould of pipe molecular orientation, and wherein will be performed the formation of the socket of the plastic pipe which is introduced in said mould. Through the inside of said support body (1) is mounted, with ease of axial displacement, a coaxial and sliding slide block (2) with a rear flange (3) as means of limiting of the sliding towards the inside of said slide block (2) on the body (1), a slide block (2) which has its inner end of conical shape (4) in accordance with the inner surface, whilst on the outer surface it has a step (5) as limit of maximum displacement towards the exterior of the support body (1).

[0030] Said slide block (2) incorporates heating elements (6) such as electrical resistances, although they may be determined by a circulation of hot fluid or any other suitable means or system, their purpose being to heat the slide block (2) to keep it at the temperature of orientation and formation of the socket.

[0031] Likewise, on the slide block (2) small orifices (7) have been provided to permit the intake of a lubricating fluid which will facilitate the sliding of the slide block, all of this so that said heating elements (6) and orifices (7) constitute means of conditioning of the other system components, for their optimum behaviour, i.e. a homogeneous distribution, reduction in forces, avoiding creases or scratches In the plastic and facilitating sliding.

[0032] On the other hand, the system also comprises a slide rod (8) designed to push the blank (11) or plastic pipe forward, inside the mould, said rod (8) being affected by an axial and central orifice (9) for the passage, intake or outlet, of the flows provided for the expansion of the blank (11) and for its cooling.

[0033] Said rod (8) incorporates at its inner end, means (10) of fastening of the blank or plastic pipe (11) preferably constituted by mechanical grips whose function is to prevent the plastic pipe (11) from moving during the orientation or expansion process.

[0034] In accordance with the aforementioned, the operation according to the system of the invention is as follows:

[0035] Initially, the system is as appears In the figure, in accordance with the upper part of the shaft, with the slide block (2) forward and the rod (8) backward, the grips (10) holding the blank or plastic pipe (11) which has expanded and oriented in its mould, for which reason the plastic adapts to the resulting cavity, as reflected in said figure, due to the pressure existing inside the mould.

[0036] When it is decided to make the socket, the slide block (2) moves backward slowly, allowing the plastic or blank (11) to adapt to the resulting cavity, which is done regularly and smoothly, since the slide block (2) is heated to a temperature identical to that of the blank (11), it being possible to lubricate said slide surface by the fluid that may be introduced via the orifices (7) provided in the slide block (2).

[0037] Creases do not occur as the inner pressure is kept constant, pushing the plastic against the mould walls.

[0038] Simultaneously, the rod (8) starts advancing in the opposite direction to that of displacement of the slide block (2), pushing the blank (11) and providing that material to the overall expansion. With the due ratio of speeds between the rod (8) and slide block (2), it regulates where one wants to position that contribution of material, preferably in the area of maximum diameter, but being able to regulate at will always with the due ratio of speeds and displacements. Logically, to achieve thickening, the speed of the rod (8) should be increased, reducing that of the slide block (2), or both, doing the opposite to thin the areas.

[0039] Once the process has concluded, the blank (11) is cooled with a cooling fluid which is introduced through the orifices (9) of the rod (8), whilst maintaining the interior pressure.

[0040] Once the blank (11) is cooled, the central orifice (9) of the rod (8) is connected to the atmosphere so that a depressurization occurs, and from there the pipe is extracted with its formed socket. There only remains to carry out the finish of the socket performing the cutting of the excess material, cleaning, placement of the gasket seal and packaging.

[0041] Having sufficiently described the nature of the invention, as well as the form of performing it in practice, it should be stated that the aforementioned provisions indicated and represented in the attached drawings, can be modified provided that they do not alter the fundamental principle.

Claims

1. System for the manufacturing of integrated sockets for biaxially oriented plastic pipes which, being provided for its coupling to a mould of molecular orientation of pipes, making it possible to form a socket of a plastic pipe, with housing for gasket seals, with the possibility of modulating and regulating any distribution of thicknesses of the socket, it is characterized in that it comprises: a support body (1) whereby is carried out the coupling to the mould; a slide block (2), coaxial and sliding axially inside said support body (1), that slide block (2) having the inner end with an outer conical configuration (4); means of heating (6) of the slide block (2), as well as small orifices (7) made axially in the latter, for the intake of a lubricating fluid; a slide rod (8) for pushing forward of the blank or plastic pipe (11) inside the mould, said rod (8) being provided with an axial and central orifice (9) for the intake and outlet of fluids; further comprising means of fastening (10) provided on the slide rod (8), for immobilising the blank or plastic pipe (11) in the orientation or expansion process thereof.

2. System for the manufacturing of integrated sockets for biaxially oriented plastic pipes, according to claim 1, characterized in that the slide block (2) and slide rod (8), are axially actuated in their displacement by actuators such as cylinders or threaded mechanical elements such that the ratio of speeds between them means that the thicknesses of the socket to form can be distributed at the convenience of the operator, by providing material of the blank or plastic pipe (11) during the expansion and distribution of the material on the stamp of the blank.

3. System for the manufacturing of integrated sockets for biaxially oriented plastic pipes, according to preceding claims, characterized in that the means of heating (6) are incorporated in the slide block (2) to maintain therein the preestablished orientation temperature.

4. System for the manufacturing of integrated sockets for biaxially oriented plastic pipes, according to claim 3, characterized in that the means of heating (6) can be electrical or based on a circulation of hot fluid.

5. System for the manufacturing of integrated sockets for biaxially oriented plastic pipes, according to preceding claims, characterized in that the slide block (2) has limiting means (3) and (5) limiting the forward and backward displacement inside the support body (1).

6. System for the manufacturing of integrated sockets for biaxially oriented plastic pipes, according to preceding claims, characterized in that the means of fastening (10) for the immobilization of the plastic pipe or blank (11) are constituted by mechanical grips.

Drawing